Genetic constructs and methods for producing fruits with very little or diminished seed

Abstract

The invention discloses a transgenic method for producing fruit with diminished or very little seeds or fruits with reduced seed number. It involves the temporal expression of a cytotoxic gene or combination of genes targeted toward arresting seed development at a time sufficiently after pollination that fruit development and maturation is normal while early enough in seed development that seed maturation per se is minimized. The invention also includes transgenic constructs, vectors, and methods for production of the fruit with diminished or very little seed bearing plants.

Claims

1. An expression construct for production of transgenic plants that will produce fruit with seed of a diminished size or very little number of seed comprising:

a recombinant gene or combination of genes which encode upon expression a cytotoxic protein; and

a seed specific promoter operably linked to said gene or genes.

2. The expression construct of claim 1 wherein said combination of genes includes:

a first DNA sequence which encodes a first gene product which is capable of rendering a non-toxic substance cytotoxic to a cell of a plant; and

a second DNA sequence which encodes a second gene product which is a non-toxic substance or encodes a second gene product which is capable of converting a substance endogenous to a plant cell to a non-toxic substance, said nontoxic substance one which is made cytotoxic by said first gene product.

3. The expression construct of claim 2 wherein said first DNA sequence encodes indole acetamide hydrolase (IamH), and wherein said second DNA sequence encodes indole acetamide synthase (IamS).

4. The expression construct of claim 1 wherein said cytotoxic gene encodes DAM methylase.

5. The expression construct of claim 1 wherein said promoter is a maternal tissue promoter.

6. The expression construct of claim 1 wherein said promoter is selected from the group consisting of:

the napin promoter, the phaseolin promoter, and the DC3 promoter.

7. The expression construct of claim 1 wherein said promoter is an inducible promoter.

8. An expression construct for the production of a transgenic parental line which when crossed with a second parental line containing a DNA sequence which encodes a second gene product which is a non-toxic substance or encodes a second gene product which is capable of converting a substance endogenous to a plant cell to a non-toxic substance, said nontoxic substance one which is made cytotoxic by said first gene product, will produce an F1 plant which will develop fruit with seed of a diminished size or very little number of seed comprising:

a DNA sequence which encodes a first gene product which is capable of rendering a non-toxic substance cytotoxic to a cell of a plant, said first gene product operably linked to a seed specific promoter.

9. An expression construct for the production of a transgenic parental line which, when crossed with a second parental line which contains a DNA sequence regulated by a seed specific promoter which encodes a first gene product which is capable of rendering a non-toxic substance cytotoxic to a cell of a plant, which will produce an F1 plant which will develop fruit with seed of a diminished size or very little number of seed comprising:

a DNA sequence which encodes a second gene product which is a non-toxic substance or encodes a second gene product which is capable of converting a substance endogenous to a plant cell to a non-toxic substance, said nontoxic substance one which is made cytotoxic by said first gene product.

10. A nucleic acid vector comprising the expression constructs of claim 1, 8 or 9.

11. The vector of claim 10 wherein said vector is a cloning vector.

12. The vector of claim 10 wherein said vector is an expression vector.

13. The vector of claim 10 further comprising a marker gene for selection of transformed cells.

14. The vector of claim 12 wherein said marker gene is selected from the group consisting of an ampicillin resistance gene, a tetracycline resistance and a hygromycin resistance gene.

15. The vector of claim 10 further comprising a polyadenylation signal.

16. A prokaryotic or eukaryotic host cell transformed with the nucleic acid vector of claim 10.

17. A transgenic plant comprising a plant cell or ancestor thereof which has been transformed with the vector of claim 10.

18. A method of producing a hybrid seed which, will produce a plant which, when pollinated will produce fruit with seed of a diminished size or very little number of seed comprising:

pollinating a parent plant which has been transformed or which ancestor thereof has been transformed with a first DNA sequence which encodes a first gene product which is capable of rendering a non-toxic substance cytotoxic to a cell of a plant said DNA sequence operably linked to a maternal tissue specific promoter; and

with a second parent plant which has been transformed or whose ancestor has been transformed with a second DNA sequence which encodes a second gene product which is a non-toxic substance o codes a second gene product which is of converting a substance endogenous to a plant cell to a non-toxic substance, said DNA sequence operably linked to a maternal tissue specific promoter, and said nontoxic substance one which is made cytotoxic by said first gene product.

19. The method of claim 18 wherein said maternal tissue specific promoter is a seed coat specific promoter.

20. A hybrid seed produced by the method of claim 18.

21. A fruit with diminished or very little seed produced by a plant which contains a DNA sequence encoding a cytotoxic protein expressed during seed development.

22. A method of producing fruit with diminished or very little seed comprising:

transforming an angiosperm plant cell with a DNA sequence which encodes a cytotoxic gene operably linked to a seed specific promoter;

generating a plant from said transformed cell; and

allowing said plant to be pollinated so that seed development is initiated and then halted without interrupting fruit set.

23. The method of claim 22 wherein said plant is a melon plant.

24. The method of claim 22 wherein said DNA sequence encodes indole acetamide hydrolase (IamH), and indole acetamide synthase (IamS).

25. The method of claim 22 wherein said promoter is selected from the group consisting of:

the napin promoter, the phaseolin promoter, and the DC3 promoter.

26. A method of producing a hybrid plant which, when pollinated will produce fruit with seed of a diminished size or very little number of seed comprising:

pollinating a parent plant which has been transformed or which ancestor thereof has been transformed with a first DNA sequence which encodes a first gene product which is capable of rendering a non-toxic substance cytotoxic to a cell of a plant said DNA sequence operably linked to a seed specific promoter; and

with a second parent plant which has been transformed or whose ancestor has been transformed with a second DNA sequence which encodes a second gene product which is a non-toxic substance or encodes a second gene product which is capable of converting a substance endogenous to a plant cell to a non-toxic substance, said DNA sequence operably linked to a seed specific promoter, and said nontoxic substance one which is made cytotoxic by said first gene product.

27. The expression construct of claim 26 wherein said first DNA sequence encodes indole acetamide hydrolase (IamH), and wherein said second DNA sequence encodes indole acetamide synthase (IamS).